The developmental origins and lineage contributions of endocardial endothelium

Biochimica Et Biophysica Acta
Atsushi NakanoNathan J Palpant

Abstract

Endocardial development involves a complex orchestration of cell fate decisions that coordinate with endoderm formation and other mesodermal cell lineages. Historically, investigations into the contribution of endocardium in the developing embryo was constrained to the heart where these cells give rise to the inner lining of the myocardium and are a major contributor to valve formation. In recent years, studies have continued to elucidate the complexities of endocardial fate commitment revealing a much broader scope of lineage potential from developing endocardium. These studies cover a wide range of species and model systems and show direct contribution or fate potential of endocardium giving rise to cardiac vasculature, blood, fibroblast, and cardiomyocyte lineages. This review focuses on the marked expansion of knowledge in the area of endocardial fate potential. This article is part of a Special Issue entitled: Cardiomyocyte Biology: Integration of Developmental and Environmental Cues in the Heart edited by Marcus Schaub and Hughes Abriel.

References

Feb 1, 1989·Journal of Molecular and Cellular Cardiology·S VirághC E Challice
Aug 1, 1995·Circulation Research·K E Yutzey, D Bader
Nov 15, 1996·The Journal of Clinical Investigation·C E MurryS M Schwartz
Feb 15, 1997·Genes & Development·T M SchultheissA B Lassar
Nov 20, 1997·Journal of Cellular Physiology·I FlammeW Risau
Feb 13, 2001·Genes & Development·V A Schneider, M Mercola
Feb 13, 2001·Genes & Development·M J MarvinA B Lassar
Apr 20, 2001·The International Journal of Biochemistry & Cell Biology·P W Hewett
Feb 20, 2003·The Journal of Cell Biology·Josephine M EncisoJoseph A Madri
Oct 4, 2003·Arteriosclerosis, Thrombosis, and Vascular Biology·Aya M WadaDavid Bader
Jan 1, 2004·Genes & Development·Luika A TimmermanJosé Luis de la Pompa
Apr 21, 2004·Proceedings of the National Academy of Sciences of the United States of America·Haruhiko AkiyamaBenoit de Crombrugghe
Jun 4, 2004·Development·Brian R KeeganDeborah Yelon
Jul 10, 2004·Circulation Research·Amanda M MasinoDaniel J Garry
Jun 29, 2005·Development·Alejandro Barrallo-Gimeno, M Angela Nieto
Jul 19, 2005·Nature·Vidu GargDeepak Srivastava
Dec 13, 2005·PLoS Biology·Saulius Sumanas, Shuo Lin
Nov 2, 2006·Proceedings of the National Academy of Sciences of the United States of America·Paul GadueGordon M Keller
May 25, 2007·Proceedings of the National Academy of Sciences of the United States of America·Shuichi UenoCharles E Murry
Jul 17, 2007·Comptes rendus biologies·Françoise Dieterlen-Lièvre
Aug 8, 2007·Developmental Cell·Jeffrey J SchoenebeckDeborah Yelon
Nov 15, 2007·Proceedings of the National Academy of Sciences of the United States of America·Alexandra KlausWalter Birchmeier
Jan 22, 2008·Nature Immunology·Elaine Dzierzak, Nancy A Speck
Feb 26, 2008·Cell·Stuart H Orkin, Leonard I Zon

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Citations

Mar 3, 2018·Circulation Research·Hui ZhangBin Zhou
Apr 3, 2019·PloS One·Samadrita BhattacharyyaNikhil V Munshi
Apr 12, 2019·Circulation Research·Joyce Bischoff
Jun 24, 2018·Molecular and Cellular Biochemistry·Abdul JaleelChandrashekaran C Kartha
Sep 30, 2018·Nature Reviews. Cardiology·Sigolène M Meilhac, Margaret E Buckingham
Apr 23, 2020·Anatomia, histologia, embryologia·Katrin BoraschJohanna Plendl
Jan 29, 2020·Cold Spring Harbor Perspectives in Biology·Bailey Dye, Joy Lincoln
Feb 13, 2021·Developmental Biology·Haruko NakanoAtsushi Nakano
May 22, 2021·Cell·Pablo HofbauerSasha Mendjan
Jun 3, 2021·Journal of Cardiovascular Development and Disease·Vanessa LoweCaroline Pellet-Many
Jun 8, 2021·Journal of Lipid and Atherosclerosis·Hiroyuki NakajimaNaoki Mochizuki
Jul 2, 2021·Arteriosclerosis, Thrombosis, and Vascular Biology·Zahra Alvandi, Joyce Bischoff
Sep 10, 2021·Genesis : the Journal of Genetics and Development·Talita Z ChoudhuryVidu Garg
Sep 11, 2021·Circulation Research·Xiaodong LiangBing Zhang

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